OQ# has to do with angular momentum. MQ# has to do with the particle behaving like a little bar magnet, (really just a moving charge -> creating a magnetic field).
magnetic field is a imaginary area around a manetic material where other magnetic subestences experience some force but flux is the imaginary lines of force that arise from magnet which indicate direction of force around it.
Magnetic quantum number (m_l) is needed to determine the orientation of an orbital.
The magnetic field. If it's an electromagnet, the electromagnetic field.
No, Ceres does not have a magnetic field around it.
When we apply external magnetic field, the orbital levels of electrons are rearranged themselves. Final vector sum of the orbital moment along the direction of magnetic field gives van vleck contribution.
The px orbital has a magnetic quantum number value of -1, and the py orbital has a magnetic quantum number value of 0.
OQ# has to do with angular momentum. MQ# has to do with the particle behaving like a little bar magnet, (really just a moving charge -> creating a magnetic field).
Both magnetic materials and moving electric charges induce magnetic fields. "A magnetic field can be created with moving charges, such as a current-carrying wire. A magnetic field can also be created by the spin magnetic dipole moment, and by the orbital magnetic dipole moment of an electron within an atom." A magnetic field can be produced by either a permanent magnet, or an electromagnet, the latter requiring suitable energization to function.
magnetic field is a imaginary area around a manetic material where other magnetic subestences experience some force but flux is the imaginary lines of force that arise from magnet which indicate direction of force around it.
A Magnetic Force
Jupiter has a large, complex, and intense magnetic field that is thought to arise from electrical currents in the rapidly spinning metallic hydrogen interior. The Earth has a strong magnetic field, but Jupiter's magnetic field at the tops of its clouds is 10 times stronger than that of the Earth. Further, the Jovian magnetic field has much higher complexity than that of the Earth, with some aspects of Jupiter's fields having no Earthly counterpart. The intensity and complexity relative to the magnetic field of the Earth is presumably related in some way to the more rapid rotation and larger metallic interior for Jupiter.yes
Magnetic freild
Magnetic quantum number (m_l) is needed to determine the orientation of an orbital.
no. Eris does not have a magnetic field
Any atom with unpaired electrons in it's orbital exhibits paramagnetism, that is that it will be attracted into an inducing magnetic field. Phosphorous has 15 electrons: 1s>2e-(all paired) 2s>2e- 2p>6e-(all paired) 3s>2e-(these two are paired) 3p>3e-(note that these are the unpaired electrons that cause it to be paramagnetic) All this is because a moving negative charge produces a magnetic field if there are two electrons in the same orbital they always spin in opposite directions cancelling each other out. When there are unpaired electrons that creates the magnetic field.
The magnetic field. If it's an electromagnet, the electromagnetic field.